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王利民


 
Tel:010-82544942
Email:lmwang@ipe.ac.cn
    王利民,男,1979年生,博士,研究员,博士生导师。2008年获中科院过程工程所化学工程博士学位,2008年到2009年在法国国家科研中心 (CNRS) 进行博士后研究,回国后历任中科院过程工程所多相复杂系统国家重点实验室助理研究员、副研究员、研究员,2012年入选中科院青年创新促进会会员,2016年获中科院前沿科学重点研究计划“拔尖青年科学家”项目, 2017年获“侯德榜化工科技青年奖”,2017年被选为中国化工学会过程模拟及仿真专业委员会秘书长。主要从事化工湍流及颗粒流体系统介尺度理论与方法研究,致力于介尺度科学原理探索工程湍流模型、发展格子Boltzmann框架下颗粒流体系统快速模拟技术,包括湍流模拟、介尺度科学、计算流体力学、流态化和多相反应工程。现任Heat Exchangers期刊编委会成员;迄今在AIChE J,Chem. Eng. Sci, J. Comput. Phys,Phys. Rev. E等期刊上发表论文60余篇,参与Springer专著3部,参与翻译著作2部 ,受邀为CPC Press出版的Powder Technology Handbook专著撰写1章节。先后主持项目13项,其中中科院前沿科学研究重点项目1项、国家自然基金委项目3项、973项目课题1项、中科院战略先导科技专项课题1项、通用电气(GE)、联合利华(Unilever)、道达尔(Total)、宝钢(Baosteel)合作项目等7项。已协助指导1名博士后出站,指导或协助指导毕业5名博士生和6名硕士生。
 
研究方向:
  • 化工传递过程介尺度湍流模型与计算
  • 气固两相流动的格子Boltzmann模拟
  • 复杂流动模拟的格子/粒子方法研究
 
代表性论文:
  1. Limin Wang*, Chengyou Wu, Wei Ge. 2017. Effect of particle clusters on mass transfer between gas and particles in gas-solid flows. Powder Technology, 319: 221–227.
  2. Wang Limin*, Zhang Lin. 2017. Lattice Boltzmann method with immersed spring boundaries for flow around deformable porous media. Computers & Fluids, 155:161–170.
  3. Wang Limin*. 2017. Mesoscale modeling for turbulence based on EMMS principle. SCIENTIA SINICA Physica, Mechanica & Astronomica, 47: 070008.
  4. Wang Limin*, Qiu Xiaoping, Zhang Lin, Li Jinghai. 2016. Turbulence originating from the compromise-in-competition between viscosity and inertia. Chemical Engineering Journal, 300: 83–97.
  5. Wang Limin*, Qiu Xiaoping, Li Jinghai. 2015. Mesoscale LBM-DEM model for gas-solid two-phase flow. Chinese Journal of Computational Mechanics, 32:685–692.
  6. Wang Limin*, Zhang Lin, Lian Guoping. 2015. A CFD simulation of 3D air flow and temperature variation in refrigeration cabinet. Procedia Engineering, 102:1599–1611.
  7. Wang Limin*, Fan Yilin, Luo Lingai. 2014. Lattice Boltzmann method for shape optimization of fluid distributor. Computers & Fluids, 94:49–57.
  8. Wang Limin*, Zhang Bo, Wang Xiaowei, Ge Wei, Li Jinghai. 2013. Lattice Boltzmann based discrete simulation for gas-solid fluidization. Chemical Engineering Science, 101:228–239.
  9. Wang Limin, Fan Yilin, Luo Lingai. 2010. Heuristic optimality criterion algorithm for shape optimization of fluid flow. Journal of Computational Physics, 229: 8031–8044.
  10. Wang Limin*, Zhou Guofeng, Wang Xiaowei, Xiong Qingang, Ge Wei. 2010. Direct numerical simulation of particle-fluid systems by combining time-driven hard-sphere model and lattice Boltzmann method. Particuology, 8: 379–382. (Cover paper)
  11. Wang Limin, Ge Wei, Chen Feiguo. 2007. Pseudo-particle modeling for gas flows in micro-channels. Chinese Science Bulletin, 52:450–455.
  12. Wang Limin, Li Jinghai, Ge Wei. 2007. "Single-phase flows", as a whole section, in Wei Ge et al. Analytical multi-scale method to complex systems in process engineering-bridging reductionism and holism. Chemical Engineering Science, 62:3346–3377.
  13. Wang Limin, Ge Wei, Li Jinghai. 2006. A new boundary condition in particle methods. Computer Physics Communications, 174: 386–400.

 

专著(章节):

  1. Li Jinghai, Ge Wei, Wang Wei, Yang Ning, Liu Xinhua, Wang Limin, He Xianfeng, Wang Xiaowei, Wang Junwu, Kwauk Mooson. From Multiscale Modeling to Meso-Science: A Chemical Engineering Perspective—— Principles, Modeling, Simulation, and Application. London: Springer, 2013.
  2. Boichot Raphaël, Wang Limin, Luo Lingai, Fan Yilin. “Chapter 6: Cellular automaton methods for heat and mass transfer intensification” in Luo L.(ed.), Heat and Mass Transfer Intensification and Shape Optimization. London: Springer, 2013.
  3. Ge Wei, Xu Ji, Xiong Qingang, Wang Xiaowei, Chen Feiguo, Wang Limin, Hou Chaofeng, Xu Ming, Li Jinghai. “Chapter 8: Multi-scale continuum-particle simulation on CPU–GPU hybrid supercomputer” in Yuen D. A. et al.(eds.), GPU Solutions to Multi-scale Problems in Science and Engineering. Berlin Heidelberg: Springer, 2013.

 

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